樟子松枯梢病的防治研究

樟子松移植苗枯梢病Sphaeropsis sapinea可以通过药剂有效地进行防治。移植前以50％多菌灵wp500倍液浸苗；在人工林中，内吸性杀菌剂－甲基托布津、多菌灵为首选药剂；在树木新梢生长停止期和展叶中期（辽西北为6月初和6月中旬），70％甲基托布津wp 1000倍液或50％多菌灵wp 500倍液防治2次。保护性杀菌剂－百菌清效果不佳。适时的卫生伐对该病有明显的抑制作用。     

古柏赤枯病病原菌的研究

经Ｋｏｃｈ＇ｓ法则检验证明，ＡｌｔｅｒｎａｒｉａｔｅｎｕｉｓＮｅｅｓ（细链格孢霉）是北京地区古柏赤枯病的病原菌。它引起古柏针叶及嫩梢的大量死亡。２—３年生桧柏及侧柏苗经人工接种证明，该病菌有较强的致病力，它还侵染某些种类的杨树。该病潜育期为５—６天。对病菌生物学特性也作了研究。病原菌生长和孢子萌发最适温度为２５℃Ｆ相对湿度在９０％以上；最适ｐＨ值为６；葡萄糖、淀粉、蛋白胨、谷氨酸为该菌纯培养的优良营养源。     

地膜覆盖对棉枯萎病发生的影响

地膜覆盖显著降低了棉花枯萎病的发病率与病情指数，极显著地提高了棉花的产量。     

小麦雪霉叶枯病产量损失的初步研究

人工接种试验结果表明,雪腐格氏霉(Gerlachia nivalis)引起的小麦成株期叶枯、鞘枯和穗腐,鞘枯使小麦穗粒重减少2.1％～27.1％,千粒重降低9.5％～16.9％;穗腐使小麦穗粒重减少9.6～33.9％,千粒重降低7.8％～17.9％;鞘枯—穗腐复合症状使穗粒重减少10.2％～55.2％,千粒重下降9.5％～14.8％;叶斑—鞘枯—穗腐使穗粒重减少11.7％～47.1％,千粒重下降12.1％～18.3％。     

Fusarium oxysporum对苗期大豆根部的致病性和侵染规律

Fusarium oxysporum对苗期大豆具有较强的致病作用。病原菌自伤口或直接侵入大豆幼苗根部的皮层组织,随着病原菌的侵入和扩展,细胞出现坏死,组织发生崩解,根部组织表现红褐色病斑。环境因素对病原菌的侵染时期和在大豆体内潜育时间的长短有着明显的影响。侵染时期主要受病原菌侵入前自身所处状态和寄主的影响,侵入后潜育时间的长短则受植株状态的影响。土壤环境条件直接影响着病原菌的侵入和寄主的抗病性,间接影响着病原菌在大豆植株体内的扩展和病症的表现。     

西瓜蔓枯病研究 Ⅰ.症状及病原

本文详细报道了西瓜蔓枯病的症状和病原菌的形态特点,并鉴定其有性阶段为Mycosphaerellamelonis(Pass)Chiu et Walker,无性阶段为Ascochyta-cucumis Fautr et Roum.此外,还在其他瓜类作物上作了病原菌的致病性试验.     

棉花枯、黄萎病菌营养亲和性研究进展

介绍了棉花枯、黄萎病菌营养亲和性研究方法和营养体亲和群研究,并着重总结了利用营养亲和群结合DNA多态性技术,研究尖孢镰刀菌(FusariumoxysporumSchlechtend:Fr)专化型、生理小种、亲和群之间的关系,以及棉花黄萎病菌(VerticilliumdahliaeKleb.)亲和群与致病型关系的研究进展。     

Effect of planting density of maize on the progress and spread of northern leaf blight fromExserohilum turcicum infested residue source

Effect of plant density (37,037, 44,444 and 55,555 plants/ha) on the increase of northern leaf blight in time and space on two maize cultivars planted at spacings of 90, 75 and 60 between rows and 30 cm within rows was investigated.Exserohilum turcicum infested maize residue was used as an inoculum source. Maize density did not significantly affect the disease indices, but significantly influenced the grain yield of the two cultivars. In contrast, the two cultivars differed significantly (P0.01) in disease severity, but not grain yield. Higher disease severities and grain yields were associated with higher plant densities, whereas the apparent infection rate was lower in higher plant density. Distance from the maize residue (inoculum source) significantly influenced disease severity. The percentage leaf area blighted, area under disease progress curve and disease progress curve intercept decreased with distance from the maize residue area, but the apparent infection rate on EV8429-SR appeared to increase with distance. Disease gradients (b) were higher in closely planted maize and flattened with time in one location only.     

Molecular aspects of the potato — Phytophthora infestans interaction

The fungal pathogenPhytophthora infestans is the causal organism of late blight, one of the most devastating diseases of potato. In the past, various aspects of the potato-P. infestans interaction have been studied extensively. In this paper we briefly review the current knowledge of the molecular events associated with the interaction and in addition we discuss a new approach for analyzing the molecular basis of pathogenicity ofP. infestans.